Explain Contramap

Can someone explain `contramap` to me? What would this implementation look like? What would good examples of usage look like?

``````// contravariant functor
trait Contravariant[F[_]] {
def contramap[A, B](f: B => A): F[A] => F[B]
}
``````
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If you look at the following `Ordering.on` method of the standard library:

``````def on[U](f: U => T): Ordering[U]
``````

You'll see that `on` transforms an `Ordering[T]` into an `Ordering[U]` while taking a function from `U` to `T`. So the method `on` witnesses the fact that `Ordering` can be seen as a `Contravariant` functor with:

``````def contramap[A, B](f: B => A) = (fa: Ordering[A]) => fa.on(f)
``````

I also saw the blog post from Tony and it helped me finally makes sense of this three year old answer from retronym to one of my question.

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Thanks. Pretty simple once you see it. – Bradford Mar 18 '13 at 3:01

Suppose that you have a class `Conversion[X,Y]` representing a conversion from a value of type `X` to a value of type `Y`. You can either combine it with a function `?=>X` to preprocess the input or with a function `Y=>?` to postprocess the output. For instance:

``````trait Conversion[X,Y] { self=>

def apply(x: X): Y

def map[Z]( f: Y=>Z ) = new Conversion[X,Z] {
def apply(x:X): Z = f( self.apply(x) )
}

def contramap[W]( f: W=>X ) = new Conversion[W,Y] {
def apply(w: W): Y = self.apply( f(w) )
}

}
``````
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Do you mean "from a value of type `X` to a value of type `Y`"? – huynhjl Mar 17 '13 at 16:56
@huynhjl Thanks. I fixed the typo. – paradigmatic Mar 17 '13 at 17:11